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High speed C/C++ based behavioural VHDL/Verilog co-simulation memory model

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High speed C/C++ based behavioural Verilog an VHDL co-simulation memory model

The mem_model component is a Verilog/VHDL simulation test component that allows for a very large memory address space without reserving large amounts of memory, defining large HDL arrays, or building a truncated memory map into a test bench which could be subject to change in the design. The model uses the simulators' programming interfaces to access a C model, pushing the majority of the functionality away from the simulator, making the test bench lightweight, and the memory accesses very fast in simulation compute time.

A direct access API is also provided to allow any other PLI C/C++ code to transfer data directly, without the overhead of simulating bus transactions (see src/mem.h). Wrapper HDL is also provided to map the ports to an AXI subordinate interface (mem_model_axi.v and mem_model_axi.vhd). The default memory mapped slave port and burst ports are Altera Avalon bus compatible.

By default memory is uninitialised but, if compiled with MEM_ZERO_NEW_PAGES defined, memory will be initialised with zeros. By default, the model is big endian, but this can be overridden by defining MEM_MODEL_DEFAULT_ENDIAN=1.

The model's software can be compiled for supporting various HDL languages, with the default being Verilog and using the PLI programming interface. To compile for the VPI interface, MEM_MODEL_PLI_VPI should be defined when compiling the mem_model.c code. When using VHDL then MEM_MODEL_VHDL should be defined. If using the SystemVerilog model then MEM_MODEL_SV should be defined. The model's code, when used with VProc, will also recognise the VProc definitions (VPROC_PLI_VPI, VPROC_VHDL, and VPROC_SV) and if these are defined when compiling the code, then the MEM_MODEL_XXX definitions do not need to be set which are needed only when compiling as a standalone model. If compiling as a stand alone model (i.e. not compiled with VProc) then MEM_MODEL_INTERNAL_PLI must be defined to enable registration of PLI routines when compiling Verilog in Questa and Icarus.

If using Verilog or SystemVerilog models, then the tx_byteenable port is enabled by defining MEM_EN_TX_BYTEENABLE when analysing either mem_model.v or mem_model.sv.

Summary of HDL files and minimum compile options for each simulator

Simulator HDL files C compilation definitions
Questa Verilog mem_model_q.v [-DMEM_MODEL_PLI_VPI] [-DMEM_MODEL_INTERNAL_PLI]
mem_model.v
[mem_model_axi.v]
Icarus Verilog mem_model_q.v [-DICARUS -DMEM_MODEL_INTERNAL_PLI]
mem_model.v
[mem_model_axi.v]
Verilator mem_model_q.v -DMEM_MODEL_SV
mem_model.sv
[mem_model_axi.sv]
Vivado xsim mem_model_q.v -DMEM_MODEL_SV
mem_model.sv
[mem_model_axi.sv]
Questa VHDL mem_model_pkg.vhd -DMEM_MODEL_VHDL
mem_model_q.vhd
mem_model.vhd
[mem_model_axi.vhd]
NVC mem_model_pkg_nvc.vhd -DMEM_MODEL_VHDL
mem_model_q.vhd
mem_model.vhd
[mem_model_axi.vhd]
GHDL mem_model_pkg_ghdl.vhd -DMEM_MODEL_VHDL
mem_model_q.vhd
mem_model.vhd
[mem_model_axi.vhd]

More details can be found in the manual—doc/mem_model_manual.pdf.